The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis

Vorhölter F-J, Schneiker-Bekel S, Goesmann A, Krause L, Bekel T, Kaiser O, Linke B, Patschkowski T, Rückert C, Schmid J, Sidhu VK, et al. (2008)
Journal of Biotechnology 134(1-2): 33-45.

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DOI
Autor*in
Vorhölter, Frank-JörgUniBi; Schneiker-Bekel, SusanneUniBi; Goesmann, AlexanderUniBi ; Krause, Lutz; Bekel, ThomasUniBi; Kaiser, Olaf; Linke, BurkhardUniBi; Patschkowski, ThomasUniBi; Rückert, ChristianUniBi ; Schmid, Joachim; Sidhu, Vishaldeep Kaur; Sieber, Volker
Alle
Einrichtung
Centrum für Biotechnologie > Arbeitsgruppe A. Pühler
Technische Fakultät > Computational Genomics
Centrum für Biotechnologie > Institut für Genomforschung und Systembiologie
Centrum für Biotechnologie > Arbeitsgruppe A. Goesmann
Fakultät für Biologie > Proteom- und Metabolomforschung
Fakultät für Biologie > Genetik und Genomik der Pflanzen
Centrum für Biotechnologie > Arbeitsgruppe A. Tauch
Centrum für Biotechnologie > Arbeitsgruppe B. Weisshaar
Centrum für Biotechnologie > Institut für Bioinformatik
Centrum für Biotechnologie > Arbeitsgruppe K. Niehaus
Centrum für Biotechnologie > Technologieplattformen > Bioinformatics Resource Facility
Abstract / Bemerkung
The complete genome sequence of the Xanthomonas campestris pv. campestris strain B100 was established. It consisted of a chromosome of 5,079,003bp, with 4471 protein-coding genes and 62 RNA genes. Comparative genomics showed that the genes required for the synthesis of xanthan and xanthan precursors were highly conserved among three sequenced X. campestris pv. campestris genomes, but differed noticeably when compared to the remaining four Xanthomonas genomes available. For the xanthan biosynthesis genes gumB and gumK earlier translational starts were proposed, while gumI and gumL turned out to be unique with no homologues beyond the Xanthomonas genomes sequenced. From the genomic data the biosynthesis pathways for the production of the exopolysaccharide xanthan could be elucidated. The first step of this process is the uptake of sugars serving as carbon and energy sources wherefore genes for 15 carbohydrate import systems could be identified. Metabolic pathways playing a role for xanthan biosynthesis could be deduced from the annotated genome. These reconstructed pathways concerned the storage and metabolization of the imported sugars. The recognized sugar utilization pathways included the Entner-Doudoroff and the pentose phosphate pathway as well as the Embden-Meyerhof pathway (glycolysis). The reconstruction indicated that the nucleotide sugar precursors for xanthan can be converted from intermediates of the pentose phosphate pathway, some of which are also intermediates of glycolysis or the Entner-Doudoroff pathway. Xanthan biosynthesis requires in particular the nucleotide sugars UDP-glucose, UDP-glucuronate, and GDP-mannose, from which xanthan repeat units are built under the control of the gum genes. The updated genome annotation data allowed reconsidering and refining the mechanistic model for xanthan biosynthesis.
Stichworte
nucleotide sugars synthesis genes; xanthan biosynthesis; X. campestris pv. campestris genome sequence; carbohydrate metabolism; uptake; carbohydrate; comparative genomics
Erscheinungsjahr
2008
Zeitschriftentitel
Journal of Biotechnology
Band
134
Ausgabe
1-2
Seite(n)
33-45
ISSN
0168-1656
Page URI
https://pub.uni-bielefeld.de/record/1592024

Zitieren

Vorhölter F-J, Schneiker-Bekel S, Goesmann A, et al. The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis. Journal of Biotechnology. 2008;134(1-2):33-45.
Vorhölter, F. - J., Schneiker-Bekel, S., Goesmann, A., Krause, L., Bekel, T., Kaiser, O., Linke, B., et al. (2008). The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis. Journal of Biotechnology, 134(1-2), 33-45. https://doi.org/10.1016/j.jbiotec.2007.12.013
Vorhölter, Frank-Jörg, Schneiker-Bekel, Susanne, Goesmann, Alexander, Krause, Lutz, Bekel, Thomas, Kaiser, Olaf, Linke, Burkhard, et al. 2008. “The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis”. Journal of Biotechnology 134 (1-2): 33-45.
Vorhölter, F. - J., Schneiker-Bekel, S., Goesmann, A., Krause, L., Bekel, T., Kaiser, O., Linke, B., Patschkowski, T., Rückert, C., Schmid, J., et al. (2008). The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis. Journal of Biotechnology 134, 33-45.
Vorhölter, F.-J., et al., 2008. The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis. Journal of Biotechnology, 134(1-2), p 33-45.
F.-J. Vorhölter, et al., “The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis”, Journal of Biotechnology, vol. 134, 2008, pp. 33-45.
Vorhölter, F.-J., Schneiker-Bekel, S., Goesmann, A., Krause, L., Bekel, T., Kaiser, O., Linke, B., Patschkowski, T., Rückert, C., Schmid, J., Sidhu, V.K., Sieber, V., Tauch, A., Watt, S.A., Weisshaar, B., Becker, A., Niehaus, K., Pühler, A.: The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis. Journal of Biotechnology. 134, 33-45 (2008).
Vorhölter, Frank-Jörg, Schneiker-Bekel, Susanne, Goesmann, Alexander, Krause, Lutz, Bekel, Thomas, Kaiser, Olaf, Linke, Burkhard, Patschkowski, Thomas, Rückert, Christian, Schmid, Joachim, Sidhu, Vishaldeep Kaur, Sieber, Volker, Tauch, Andreas, Watt, Steven Alexander, Weisshaar, Bernd, Becker, Anke, Niehaus, Karsten, and Pühler, Alfred. “The genome of Xanthomonas campestris pv. campestris B 100 and its use for the reconstruction of metabolic pathways involved in xanthan biosynthesis”. Journal of Biotechnology 134.1-2 (2008): 33-45.

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